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个人简介

陈惠超,女,工学博士,副研究员,博士生导师。2004、2006年分别获得东南大学环境工程专业学士、硕士学位;2007-2008年在沈阳远大环境工程有限公司从事环境工程设计;2011年获东南大学工学博士,并留校任教;2015-2017年在University of New South Wales从事科研工作;主要从事二氧化碳捕集与矿物化固定、燃煤PM2.5减排控制以及土壤污染修复等方面的研究。主持国家自然科学基金、国家重点研发计划专题、教育部博士点基金、University of New South Wales Research Project、博士后特别资助项目以及企业研发项目等多项课题; 参与完成国家自然科学基金1项,国际合作项目2项及多项企业研发项目;发表SCI/EI收录论文30余篇。2015年获University of New South Wales (Australia) Vice Chancellor’s Postdoc Research Fellowship, 2013年获教育部自然科学奖二等奖(排3)、2012年获江苏省优秀博士学位论文(排1)和东南大学优秀博士学位论文(排1)。 教学课程 本科生课程:《传热学》(II)2012-2015; 《工程热力学》(II) 科研 教改项目 1. 国家自然科学基金-山西煤基低碳联合基金:生物质基修饰钙基吸收剂捕集CO2协同还原NOx机理研究,主持,2018-2020 2. 国家重点研发计划(2018YFC1800104)"污染场地时空分布与风险预测研究",专题主持,2018-2022 3. 国家自然科学基金:新型高铝修饰钙基吸收剂抗烧结抗磨损机理研究,主持,2013-2015 4. Research Project at University of New South Wales: Strategies for developing of low cost calcium based sorbent for CO2 capture, 主持,2015-2017 5. 教育部博士点基金:高铝粉煤灰强化钙基吸收剂循环捕集CO2 性能及其机理研究,主持,2013-2015 6. 中国博士后特别资助:废弃耐火材料修饰钙基吸收剂循环捕集CO2 机理研究,主持,2012-2013 7. 江苏申港锅炉有限公司研发项目:喷射团聚剂促燃煤烟气中PM2.5长大捕集研究,主持,2014-2015 8. 国家自然科学基金:湿颗粒体系的流态化行为及机理研究 ,参与,2014-2016 9. 国际合作项目:2.5MWth循环流化床IBHX中试装置建造及试验研究,参与,2011-2013 10. 国家合作项目:2.5MW床内换热器(IBHX)中试装置-3,参与,2014-2016 专利申请 陈惠超、梁财、吴玮、吴新,利用凹凸棒粘土悬浊液团聚捕集燃煤PM2.5的方法,国家授权发明专利,ZL 201410432544.5 赵长遂、陈惠超等,一种用于脱除烟气中二氧化碳复合吸收剂的制备方法,国家授权发明专利,ZL201010100922 赵长遂、陈惠超等,一种用于脱除烟气中二氧化碳的改性钙基吸收剂的制备方法,国家授权发明专利,ZL201010201832.1 荣誉 奖励 UNSW Vice Chancellor’s Postdoc Research Fellowship, 第一完成人,2015年 教育部自然科学奖二等奖,钙基载体循环煅烧/碳酸化捕集CO2基础研究,第3完成人,教育部,2013年 江苏省优秀博士学位论文:钙基吸收剂循环煅烧/加压碳酸化捕集CO2研究,第1完成人,江苏省教育委员会,2012年 指导学生 欢迎环境、化工、热能专业的同学加入团队从事环境/能源领域的研究工作。

研究领域

二氧化碳捕集与固定;燃煤PM2.5减排控制;土壤污染修复技术

近期论文

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1.H. Chen, Nasser Khalili, Jiajie Li, Development of stabilized Ca-based CO2 sorbents supported by fly ash, Chemical Engineering Journal 2018, 345, 312-319. [Q1; IF 6.214] 2.H. Chen, F. Wang, C. Zhao, L. Duan, Carbonation kinetics of fly ash modified calcium-based sorbents for CO2 capture, Greenhouse Gases: Science and Technology, 30 October 2017 DOI: 10.1002/ghg.1739. 3. H. Chen, X. Tang, C. Liang, X. Wu, Attapulgite Suspension Mitigates Fine Particulate Matter (PM2.5) Emission from Coal Combustion in Fluidized Bed, Journal of Environmental Management 2018, 209, 245-253. [Q1; IF 4.049] 4.H. Chen, N. Khalili, Fly ash modified calcium based sorbent tailored to CO2 Capture, Industrial Engineering Chemistry Research 2017, [Q1; IF 2.567,Cited 1] 5.H. Chen, F. Wang, C. Zhao, N. Khalili, The effect of fly ash on reactivity of calcium based sorbents for CO2 capture, Chemical Engineering Journal 2017, 309: 725-737. [Q1; IF 5.310,Cited 4] 6.H. Chen, P. Zhang, Y. Duan, C. Zhao, CO2 capture performance of calcium based sorbents developed by sol-gel technique in the presence of steam, Chemical Engineering Journal2016, 295, 218-226. [Q1; IF 5.31,Cited 12] 7.H. Chen, P. Zhang, Y. Duan, C. Zhao, Reactivity enhancement of calcium based sorbents by doped with metal oxides through the sol-gel process, Applied Energy2016, 162, 390-400. [Q1; IF 5.592,Cited 18] 8.H. Chen, W. Wu, C. Liang, X. Wu, Removal of fine particulate matter by spraying attapulgite suspending liquid, Energy Fuels2016, 30, 4150-4158. [Q1; IF 2.790] 9.H. Chen,C. Zhao, CO2 capture performance of calcium-based sorbents in the presence of SO2 under pressurized carbonation, Chemical Engineering Technology2016, 39, 1058-1066. [Q2, IF 2.442 ] 10.H. Chen, F. Wang, L. Zhao, C. Zhao, Study on cyclic carbonation property of CaO-based sorbents modified with fly ash, Proceeding of CSEE2015, 35, 5251-5257. (In Chinese). [IF 1.529] 11.H. Chen, W. Wu, C. Liang, Q. Zeng, Effect of Attapulgite Suspensions on PM2.5 Emission of Coal Combustion in CFB, Proceeding of CSEE2015, 35, 4408-4416. (In Chinese). [IF 1.529] 12.H. Chen, W. Wu, C. Liang, Effect of attapulgite on PM2.5 and agglomeration during coal combustion, Journal of Fuel Chemistry and Technology2015, 43, 177-184. (In Chinese). [IF 0.982] 13.H. Chen, C. Zhao, Y. Yang, Enhancement of attrition resistance and cyclic CO2 capture of calcium‐based sorbent Pellets, Fuel Processing Technology 2013,116, 116-122. [Q1; IF 4.031, Cited 19] 14.H. Chen, C. Zhao, W. Yu, Calcium-based sorbent doped with attapulgite for CO2 capture, Applied Energy 2013, 112, 67-74. [Q1; IF 5.597, Cited 33] 15.H. Chen, C. Zhao, P. Shen, Study on effect of steam in flue gas on calcium based sorbent for CO2 capture, Huagong Xuebao/CIESC Journal 2013,64, 1364-1372. (In Chinese). [IF 1.0, Cited 7] 16.P. Zhang, H. Chen, Y. Duan, Carbonation property of calcium based sorbent synthesized by the sol-gel process, Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering 2013,33, 99-106. (In Chinese) [IF 1.529, Cited 1] 17.H. Chen, C. Zhao, Experimental study on CO2 capture performance of dolomite during atmospheric calcination/pressurized carbonation looping, Journal of Southeast University (Natural Science Edition) 2013,43, 553-558. (In Chinese). [IF 0.886] 18.S. Sang, Y. Duan, H. Chen, et al. TG-FTIR Analysis on Pyrolysis Characteristics of Waste Plastics,Environmental Science&Technology 2013, 36, 159-163. (In Chinese). 19.S. Sang, Y. Duan, H. Chen, et al. Corrosion characteristics of superheater subjected to gas phase in waste plastic fired boilers, Thermal Power Generation 2013, 42, 119-123. (In Chinese). 20.S. Sang, Y. Duan, H. Chen, et al. Emission characters of HCl during paper mill plastic waste incineration, Environmental Chemistry 2013,32, 94-99. (In Chinese) 21.H. Chen, C. Zhao, CO2 capture and attrition performance of CaO pellets with aluminate cement under pressurized carbonation, Applied Energy 2012, 91, 334‐340. [Q1; IF 5.597, Cited 48] 22.H. Chen, C. Zhao, Q. Ren, Feasibility of CO2 / SO2 Uptake Enhancement of Calcined Limestone Modified with Rice Husk Ash during Pressurized Carbonation Loop, Journal of Environmental Management 2012,93, 235-244. [Q1; IF 3.850, Cited 24] 23.H. Chen, C. Zhao, Y. Li, et al, Enhancement of Reactivity in Surfactant-Modified Sorbent for CO2 Capture in Pressurized Carbonation, Fuel Processing Technology 2011,92, 493-499. [Q1; IF 4.031, Cited 32] 24.H. Chen, C. Zhao, Y. Li, et al, CO2 uptake of modified Ca-based Sorbents in a Pressurized Carbonation-Calcination Looping, Fuel processing technology 2011,92, 1144-1151. [Q1; IF 4.031, Cited 27] 25.H. Chen, C. Zhao, Development of a CaO-based Sorbent with improved cyclic stability for CO2 capture in pressurized carbonation, Chemical Engineering Journal 2011, 171,197-205. [Q1; IF 4.181, Cited 42] 26.Y. Li, C. Zhao, H. Chen, et al, CO2 capture efficiency and energy requirement analysis of power plant using modified calcium-based sorbent looping cycle, Energy2011, 36, 1590-1598. [Q1; IF 4.465, Cited 39] 27.H. Chen, C. Zhao, Y. Li, et al, CO2 Capture Performance of Calcium‐Based Sorbents in a Pressurized Carbonation/Calcination Loop, Energy Fuels 2010, 24, 5751-5756. [Q1; IF 2.79, Cited 33] 28.Y. Li, C. Zhao, H. Chen, et al, Cyclic CO2 capture behavior of KMnO4 doped CaO-based sorbent, Fuel 2010,89, 642-649. [Q1; IF 4.186, Cited 79] 29.H. Chen, C. Zhao, Y. Li, et al, Study on characteristics of cyclic calcination/pressurized carbonation of Ca-based sorbents, Proceedings of CSEE 2010, 30, 42-48. (In Chinese) [IF 1.529] 30.Ge Zhu, Changsui Zhao, H. Chen, et al. The emissions of PAHs and heavy metals from co-combustion of petrochemical sludge with coal in CFB incinerator. Proceedings of the 20th International Conference on Fluidized Bed Combustion, Xi An, China, 2009, pp. 1048-1053. 31.H. Chen,C. Zhao, Y. Li, Progressive Study on Simultaneous CO2/SO2 Capture by Ca-based Sorbent During Cyclic Calcination/Carbonation Reactions, Journal of Power Engineering 2009, 7, 13. (In Chinese) [IF 0.631, Cited 6] 32.H. Chen, C. Zhao, X. Chen, et al, NOx emission from incineration of organic liquid waste in a circulating fluidized bed, Korea Journal of Chemical Engineering2007, 24, 906-910. [Q3, IF 1.134, Cited 1]

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